Issue 22, 2022

Optoelectronic tweezers: a versatile toolbox for nano-/micro-manipulation

Abstract

The rapid development of micromanipulation technologies has opened exciting new opportunities for the actuation, selection and assembly of a variety of non-biological and biological nano/micro-objects for applications ranging from microfabrication, cell analysis, tissue engineering, biochemical sensing, to nano/micro-machines. To date, a variety of precise, flexible and high-throughput manipulation techniques have been developed based on different physical fields. Among them, optoelectronic tweezers (OET) is a state-of-art technique that combines light stimuli with electric field together by leveraging the photoconductive effect of semiconductor materials. Herein, the behavior of micro-objects can be directly controlled by inducing the change of electric fields on demand in an optical manner. Relying on this light-induced electrokinetic effect, OET offers tremendous advantages in micromanipulation such as programmability, flexibility, versatility, high-throughput and ease of integration with other characterization systems, thus showing impressive performance compared to those of many other manipulation techniques. A lot of research on OET have been reported in recent years and the technology has developed rapidly in various fields of science and engineering. This work provides a comprehensive review of the OET technology, including its working mechanisms, experimental setups, applications in non-biological and biological scenarios, technology commercialization and future perspectives.

Graphical abstract: Optoelectronic tweezers: a versatile toolbox for nano-/micro-manipulation

Article information

Article type
Review Article
Submitted
06 May 2022
First published
26 Oct 2022

Chem. Soc. Rev., 2022,51, 9203-9242

Optoelectronic tweezers: a versatile toolbox for nano-/micro-manipulation

S. Zhang, B. Xu, M. Elsayed, F. Nan, W. Liang, J. K. Valley, L. Liu, Q. Huang, M. C. Wu and A. R. Wheeler, Chem. Soc. Rev., 2022, 51, 9203 DOI: 10.1039/D2CS00359G

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